Tool for installing a screen protector on an electronic device

ABSTRACT

A tool for assisting in affixing a screen protector to a display of an electronic device is provided. The tool includes first and second segments slidably attached to define an interior of the tool. The first segment has a first side, a second side attached to the first side by a first corner alignment feature, and a third side attached to the second side by a second corner alignment feature. The second segment similarly includes a first side, a second side, and a third side. The first and second corner alignment features of the first segment and the first and second corner alignment features of the second segment are configured to center the electronic device in the interior of the tool when the first segment is slid relative to the second segment.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.16/694,237, filed Nov. 25, 2019, which claims priority to U.S.Provisional Patent Application No. 62/783,283, filed Dec. 21, 2018, andto U.S. Provisional Patent Application No. 62/886,493, filed Aug. 14,2019, the entire contents of which are hereby incorporated by referencein their entireties.

BACKGROUND

The present invention relates generally to a tools or guides forproperly aligning screen protectors with display screens of electronicdevices during installation of the screen protectors.

Screen protectors are used to cover and protect the display screens ofelectronic devices. Screen protectors may be used to protect, forexample, the surface of digital electronic device display componentsduring manufacture, or may be adhered to display screen of a completeddevice to protect it from damage during normal day-to-day use. At leasta portion of the screen protector is often transparent, and may permitthe use of touch-sensitive features of the electronic device through thescreen protector. Screen protectors may be formed of a glass material,such as soda lime glass or fortified glass, or a polymeric material,such as a plastic film or composite of one or more polymers.

Display screens for electronic devices may have a substantially flatsurface, a substantially curved surface, or a substantially flat mainportion and one or more curved or rounded edge portions.

In some situations, is can be difficult to properly align the screenprotector onto the display screen of the electronic device duringinstallation. Poor alignment may result in poor adhesion between thescreen protector and the electronic device. Air trapped between thescreen protector and display may result in unsightly bubbles thatadversely affect the ability to use the display. Additionally,misaligned edges of the screen protector may result in an inability touse a protective case with the installed screen protector, or the screenprotector may be inadvertently removed from the electronic device when aprotective case is installed on the electronic device.

Improvements in one or more of the foregoing are desired.

SUMMARY

In one exemplary embodiment a tool for assisting in affixing a screenprotector to a display of an electronic device is provided. The toolincludes a first segment and a second segment slidably attached to thefirst segment to define an interior of the tool. The first segment has afirst side, a second side attached to the first side by a first corneralignment feature, and a third side attached to the second side by asecond corner alignment feature. The second segment includes a firstside, a second side attached to the first side by a first corneralignment feature, and a third side attached to the second side by asecond corner alignment feature. The first and second corner alignmentfeatures of the first segment and the first and second corner alignmentfeatures of the second segment are configured to center the electronicdevice in the interior of the tool when the first segment is slidrelative to the second segment.

In one more particular embodiment, the first segment includes one ormore posts configured to receive a screen protector assembly includingthe screen protector to be affixed to the display of the electronicdevice. In another more particular embodiment, the second segmentincludes one or more posts configured to receive the screen protectorassembly. In another more particular embodiment, the one or more postsof the first segment are positioned on the second side of the firstsegment and the one or more posts of the second segment are positionedon the second side of the second segment.

In another embodiment of any of the above embodiments, the tool furtherincludes a screen protector assembly including the screen protectorhaving a front surface and an opposing rear surface, a first removablefilm configured to at least partially cover the rear surface of thescreen protector, and a second removable film configured to at leastpartially cover the front surface of the screen protector. In a moreparticular embodiment, the second removable film includes a firstalignment extension including one or more alignment apertures configuredto align with the respective one or more posts of the first segment, anda second alignment extension including one or more alignment aperturesconfigured to align with the respective one or more posts of the secondsegment. In an even more particular embodiment, the one or morealignment apertures of the first alignment extension have a diameterthat is greater than a diameter of the one or more alignment aperturesof the second alignment extension.

In another more particular embodiment of any of the above embodiments,at least one of a number of the one or more posts of the first segment,a position of the one or more posts of the first segment, and a shape ofthe one or more posts of the first segment is different than arespective number of the one or more posts of the second segment, aposition of the one or more posts of the second segment, and a shape ofthe one or more posts of the second segment.

In another more particular embodiment of any of the above embodiments,at least a portion of the third side of the first segment is configuredto be slidably received within an interior of the first side of thesecond segment and at least a portion of the third side of the secondsegment is configured to be slidably received within an interior of thethird side of the first segment.

In another more particular embodiment of any of the above embodiments,the first corner alignment feature and the second corner alignmentfeature of the first segment each comprise a surface forming acorresponding angle between 30° and 60° with the second side of thefirst segment. In a more particular embodiment, the first corneralignment feature and the second corner alignment feature of the secondsegment each comprise a surface forming a corresponding angle between30° and 60° with the second side of the second segment.

In another more particular embodiment of any of the above embodiments,the first segment is substantially identical to the second segment.

In another more particular embodiment of any of the above embodiments,at least one of the first side, the second side, and the third side ofthe first segment has a different length or a different shape than therespective first side, the second side, and the third side of the secondsegment.

In another more particular embodiment of any of the above embodiments,the first side of the first segment and the third side of the secondsegment are configured to be proximate the left side of the electronicdevice, the second side of the first segment is configured to beproximate the top side of the electronic device, the third side of thefirst segment and the first side of the second segment are configured tobe proximate the right side of the electronic device, and the secondside of the second segment is configured to be proximate the bottom sideof the electronic device when the electronic device is positioned in theinterior of the tool.

In another more particular embodiment of any of the above embodiments,the first segment is configured to be disconnected from the secondsegment and reattached in a second configuration to form a stand for theelectronic device, wherein the first segment is not parallel to thesecond segment in the second configuration.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a perspective view of an exemplary tool forinstalling a screen protector on an electronic device.

FIG. 2 illustrates a front view of an electronic device positioned inthe tool of FIG. 1.

FIG. 3 illustrates a right side view of the electronic device positionedin the tool of FIG. 1.

FIG. 4 illustrates a left side view of the electronic device positionedin the tool of FIG. 1.

FIG. 5 illustrates a front view of the exemplary tool of FIG. 1 in anunassembled state.

FIG. 6 illustrates a perspective view of a first component of the toolof FIG. 1.

FIG. 7 illustrates an exemplary screen protector assembly for use withthe tool of FIG. 1.

FIG. 8 illustrates an exploded view of the screen protector assembly ofFIG. 7.

FIG. 9 is a flow chart illustrating an exemplary method of installing ascreen protector using the screen protector assembly of FIG. 7 and toolof FIG. 1.

FIG. 10 illustrates a front view of another exemplary tool forinstalling a screen protector on an electronic device.

FIG. 11 illustrates a rear view of the tool of FIG. 10.

FIG. 12 illustrates a rear view of a segment of the tool of FIG. 10.

FIG. 13 illustrates a rear view of another exemplary tool for installinga screen protector on an electronic device.

FIG. 14 illustrates a rear view of a segment of the tool of FIG. 13.

FIG. 15 illustrates a sectional view of the segment of FIG. 14 along theline labeled 15-15 in FIG. 14.

FIG. 16 illustrates another exemplary screen protector assembly.

FIG. 17 illustrates a perspective view of another exemplary tool forinstalling a screen protector on an electronic device.

FIG. 18 illustrates a rear view of the tool of FIG. 17.

FIG. 19 illustrates a first exemplary exploded view of the tool of FIG.17.

FIG. 20 illustrates a second exemplary exploded view of the tool of FIG.17.

FIG. 21 illustrates a perspective view of another exemplary tool forinstalling a screen protector on an electronic device.

FIG. 22 illustrates an exemplary exploded view of the tool of FIG. 21.

FIG. 23 illustrates a perspective view of another exemplary tool forinstalling a screen protector on an electronic device.

FIG. 24 illustrates a side view of the tool of FIG. 23.

FIG. 25 illustrates a bottom view of the tool of FIG. 23.

FIG. 26 illustrates a screen protector assembly to be used with the toolof FIG. 23.

FIG. 27 illustrates the insertion of the screen protector assembly ofFIG. 26 into the tool of FIG. 23.

FIG. 28 illustrates the tool of FIG. 23 and the screen protectorassembly of FIG. 26 in use with an electronic device 10.

DETAILED DESCRIPTION

Referring first to FIGS. 1-6, an exemplary tool 30 for aligning andinstalling a screen protector 82 (see FIGS. 7-8) onto an electronicdevice 10 (see FIGS. 2-4) is illustrated.

In some exemplary embodiments, tool 30 includes a first segment 40 and asecond segment 60. First segment 40 is illustratively moveable relativeto second segment 60 to accommodate a range of sizes of electronicdevice 10. In some exemplary embodiments, first segment 40 and secondsegment 60 are slidably coupled relative to each other to receive avariety of electronic devices 10 having different lengths and/or widths.

First segment 40 and second segment 60 define an interior 32 of tool 30.As illustrated in FIG. 2, interior 32 is configured to receive anelectronic device 10. Electronic device 10 includes a front surface 12having a display screen 14 onto which the screen protector 82 is to beplaced. In some exemplary embodiments, display screen 14 covers only aportion of front surface 12. In some exemplary embodiments, displayscreen 14 covers the entire front surface 12. In some exemplaryembodiments, display screen 14 covers at least a portion of frontsurface 12 and at least a portion of one or more sides, such as leftside 16, right side 18, top side 20, and bottom side 22.

Electronic device 10 includes one or more corners between adjacentsides, such as first top corner 24A formed between left side 16 and topside 20, second top corner 24B formed between right side 18 and top side20, first bottom corner 26A formed between right side 18 and bottom side22, and second bottom corner 24B formed between left side 16 and bottomside 22. As illustrated in FIG. 2, in some embodiments each corner 24A,24B, 26A, 26B is rounded or otherwise smoothed. In other embodiments,one or more corners 24A, 24B, 26A, 26B form a relatively sharp angle. Inother embodiments, one or more corners 24A, 24B, 26A, 26B are formedfrom two or more angles or rounded portions.

Referring next to FIGS. 1, 5, and 6, first segment 40 includes a firstside 42, a second side 44, and a third side 46. First side 42 isillustratively parallel to third side 46. Second side 44 isillustratively perpendicular to first side 42 and third side 46. Asshown in FIG. 2, first side 42 is configured to be substantiallyparallel to left side 16 of received electronic device 10. Second side44 is configured to be substantially parallel to top side 20 of receivedelectronic device 10. Third side 46 is configured to be substantiallyparallel to right side 18 of received electronic device 10.

A first corner alignment feature 48 is formed between first side 42 andsecond side 44. A second corner alignment feature 50 is formed betweensecond side 44 and third side 46. Each corner alignment feature 48, 50is configured to align received electronic device 10 within the interior32 of tool 30 to allow proper alignment during installation of thescreen protector 82. In some embodiments, each corner alignment feature48, 50 is a surface at an angle greater than 0° and less than 90° withrespect to second side 44, such as the 45° illustrated in FIG. 2. Insome embodiments, each corner alignment feature 48, 50 forms an anglewith second side 44 as little as 10°, 20°, 30°, 40°, 45°, as great as50°, 60°, 70°, 80°, or within any range defined between any two of theforegoing values, such as 10° to 80°, 30° to 60°, or 40° to 50°.

First segment 40 illustratively includes one or more posts 52 configuredto receive a screen protector assembly 80 including screen protector 82.As illustrated in FIG. 2, in some embodiments, second side 44 includestwo posts 52. In other embodiments, second side 44 includes a singlepost 52 or three or more posts 52. In some embodiments, including two ormore posts 52 may provide for better stability and alignment of screenprotector assembly 80 during the installation process. Althoughillustrated on second side 44, in other embodiments one or more posts 52may be positioned on first side 42, third side 46, or elsewhere on firstsegment 40. In some embodiments, one or more posts 52 includes a hook orcatch on a surface opposite that of interior 32 to assist in positioningalignment apertures 98A of screen protector assembly 80 during theinstallation process (see FIG. 7).

As illustrated in FIGS. 3 and 4, in some embodiments, each post 52extends substantially perpendicularly from second side 44. In otherembodiments, one or more posts 52 may be angled away from interior 32 asthe post 52 extends from second side 44, forming an angle between post52 and second side 44 of 90°, 95°, 100°, 105° or greater, or within anyrange defined between any two of the foregoing values, such as 90° to105°.

As illustrated in FIGS. 3 and 4, in some embodiments one more of posts52 may have a tapered shape. In some embodiments, the tapered shape ofpost 52 provides a stopping height for a defined size of alignmentapertures 98A or 98B of screen protector assembly 80 (see FIG. 8) toprovide for proper vertical alignment of the screen protector assembly80 onto tool 30. In other words, a screen protector assembly may haveapertures of a size which causes them to stop before reaching the bottomof the tapered post.

Referring next to FIGS. 5 and 6, first side 42 illustratively terminatesin receiving end 54. Receiving end 54 is configured to receive a portionof second segment 60. In one exemplary embodiment, receiving end 54includes an opening, channel, or slot 36 configured to slidably receivea portion of third side 66 of second segment 60.

Third side 46 illustratively terminates in received end 56. Received end56 is configured to be slidably received by a portion of second segment60. In one exemplary embodiment, received end 56 and at least a portionof third side 46 are received within a portion of first side 62 ofsecond segment 60. In some embodiments, received end 56 includesprojections 58. Projections 58 may be formed of a resilient or flexiblematerial and are configured to be pressed together to allow received end56 to be positioned within first side 62 of second segment 60, and toresiliently expand within first side 62 of second segment 60 to preventreceived end 56 from passing past receiving end 74 of first side 62 ofsecond segment 60.

In some exemplary embodiments, first segment 40 is permanently slidablycoupled to second segment 60. In some exemplary embodiments, firstsegment 40 is removably coupled to second segment 60.

Referring again to FIGS. 1-5, second segment 60 includes a first side62, a second side 64, and a third side 66. First side 62 isillustratively parallel to third side 66 of second segment 60 and firstside 42 and third side 46 of first segment 40. Second side 64 isillustratively perpendicular to first side 62 and third side 66 ofsecond segment 60 and first side 42 and third side 46 of first segment40. As shown in FIG. 2, first side 62 of second segment 60 is configuredto be substantially parallel to right side 18 of received electronicdevice 10. Second side 64 is configured to be substantially parallel tobottom side 22 of received electronic device 10. Third side 66 isconfigured to be substantially parallel to left side 16 of receivedelectronic device 10.

A first corner alignment feature 68 is formed between first side 62 andsecond side 64. A second corner alignment FIG. 70 is formed betweensecond side 64 and third side 66. Each corner alignment feature 68, 70is configured to align received electronic device 10 within the interior32 of tool 30 to allow proper alignment during installation of thescreen protector 82. In some embodiments, each corner alignment feature68, 70 is a surface at an angle greater than 0° and less than 90° withrespect to second side 64, such as the 45° illustrated in FIG. 2. Insome embodiments, each corner alignment feature 68, 70 forms an anglewith second side 64 as little as 10°, 20°, 30°, 40°, 45°, as great as50°, 60°, 70°, 80°, or within any range defined between any two of theforegoing values, such as 10° to 80°, 30° to 60°, or 40° to 50°.

Second segment 64 illustratively includes one or more posts 72configured to receive a screen protector assembly 80 including screenprotector 82. As illustrated in FIG. 2, in some embodiments, second side64 includes two posts 72. In other embodiments, second side 64 includesa single post 72 or three or more posts 72. In some embodiments,including two or more posts 72 may provide for better stability andalignment of screen protector assembly 80 during the installationprocess. Although illustrated on second side 64, in other embodimentsone or more posts 72 may be positioned on first side 62, third side 66,or elsewhere on second segment 60.

As illustrated in FIGS. 3 and 4, in some embodiments each post 72 mayhave a tapered shape. In some embodiments, the tapered shape of post 72provides a stopping height for a defined size of alignment apertures 98Aor 98B of screen protector assembly 80 (see FIG. 8) to provide forproper vertical alignment of the screen protector assembly 80 onto tool30. In some embodiments, one or more posts 72 includes a hook or catchon a surface opposite that of interior 32 to assist in positioningalignment apertures 98B of screen protector assembly 80 during theinstallation process (see FIG. 7).

As illustrated in FIGS. 3 and 4, in some embodiments, each post 72extends substantially perpendicularly from second side 64. In otherembodiments, one or more posts 72 may be angled away from interior 32 asthe post 72 extends from second side 64, forming an angle between post72 and second side 64 of 90°, 95°, 100°, 105° or greater, or within anyrange defined between any two of the foregoing values, such as 90° to105°.

Referring next to FIG. 5, first side 62 of second segment 60illustratively terminates in receiving end 74. Receiving end 74 isconfigured to receive a portion of first segment 40. In one exemplaryembodiment, receiving end 74 includes an opening or slot 36 configuredto slidably receive a portion of third side 46 of first segment 40. Slot36 illustratively includes one or more stops 37 configured to engageprojection 78 on the corresponding end 56 of first segment 40.

Third side 66 illustratively terminates in received end 76. Received end76 is configured to be slidably received by a portion of first segment40. In one exemplary embodiment, received end 76 and at least a portionof third side 66 are received within a portion of first side 42 of firstsegment 40. In some embodiments, received end 76 includes projections78. Projections 78 may be formed of a resilient material and areconfigured to be pressed together to allow received end 76 to bepositioned within first side 42 of first segment 40, and to resilientlyexpand within first side 42 of first segment 40 to prevent received end76 from passing past receiving end 54 of first side 42 of first segment40.

As illustrated in FIGS. 1-5, in some embodiments, at least a portion offirst segment 40 is substantially identical to a respective portion ofsecond segment 60. In some embodiments, one or more of first side 42,second side 44, and third side 46 of first segment 40 are substantiallyidentical to the respective first side 62, second side 64, and thirdside 66 of second segment 60. In some embodiments, one or more of firstcorner alignment feature 48 and second corner alignment feature 50 offirst segment 40 are substantially identical to the respective firstcorner alignment feature 68 and second corner alignment feature 70 ofsecond segment 60. In some embodiments, the one or more posts 52 offirst segment 40 are substantially identical to the respective posts 72of second segment 60. In some embodiments, one or more of the receivingend 54 and the received end 56 of first segment 40 are substantiallyidentical to the receiving end 74 and received end 76 of second segment60. In some embodiments, the entire first segment 40 is substantiallyidentical to the second segment 60.

In other embodiments, at least a portion first segment 40 is notsubstantially identical to a respective portion of second segment 60. Insome embodiments, the number, positioning, and/or shape of posts 52 onfirst segment 40 is different than the number, positioning, and/or shapeof posts 72 on second segment 60 to assist in aligning the alignmentapertures 98A, 98B of screen protector assembly 80 (see FIG. 8) in theproper orientation. In some embodiments, one or more of first side 42,second side 44, and third side 46 of first segment 40 is notsubstantially identical to the respective first side 62, second side 64,and third side 66 of second segment 60 to accommodate an electronicdevice 10 that is non-symmetrical in shape.

In some embodiments, the angled surfaces of the respective alignmentfeatures 48, 50, 68, 70 allow for tool 30 to receive electronic deviceshaving a variety of lengths and widths. When the electronic device 10 isreceived within interior 32 of assembled tool 30 and the first segment40 is moved or slid towards the second segment 60, each of the corners24A, 24B, 26A, 26B of electronic device 10 contacts the angled surfaceof a respective alignment feature 48, 50, 68, 70 of the tool 30. Anarrower electronic device 10 will result in each corner 24A, 24B, 26A,26B contacting the respective angled surface closer to second sides 44,64, while a wider electronic device 10 will result in corners 24A, 26A,26B contacting the respective angled surface closer to the respectivefirst sides 42, 62 and corners 24B, 26B contacting the respective angledsurface closer to the respective third sides 46, 66. A slight force fromsliding first segment 40 towards second segment 60 serves to align bythe angled surfaces of alignment features 48, 50, 68, 70 pressingagainst the respective corners 24A, 24B, 26A, 26B of electronic device10 to align both a central length axis and a central width axis of theelectronic device 10 with a corresponding central length axis and acentral width axis of the tool 30.

In some exemplary embodiments, first segment 40 can be uncoupled fromsecond segment 60 by removing received ends 56, 76 from the respectivereceiving ends 74, 54. First segment 40 can then be coupled to secondsegment 60 in a second configuration to form a stand for electronicdevice 10, wherein the first segment 40 is not parallel to the secondsegment 60 in the stand configuration. In some embodiments, posts 52support a top side 20 of the electronic device and posts 72 support abottom side 22 of the electronic device 10 when the tool 30 is in thestand configuration. In some embodiments, first segment 40 forms anangle with second segment 60 in the stand configuration as little as10°, 20°, 30°, 40°, 45°, as great as 50°, 60°, 70°, 80°, or within anyrange defined between any two of the foregoing values, such as 10° to80°, 30° to 60°, or 40° to 50°.

Referring again to FIG. 2, in some embodiments, one or more posts 52 areprovided on first segment 40 above a first centerline CLA of tool 30 andone or more posts 72 are provided on second segment 60 below the firstcenterline CLA. In some embodiments, one or more posts 52 on firstsegment 40 are positioned an equal distance from first centerline CLA asone or more posts 72 on second segment 60. In some embodiments, one ormore posts 52 on first segment 40 are provided to a left side of asecond centerline CLB and one or more posts 52 are provided to a rightside of second centerline CLB. In some embodiments, posts 52 areprovided on first segment 40 an equal distance on either side of secondcenterline CLB. In some embodiments, one or more posts 72 on secondsegment 60 are provided to a right side of a second centerline CLB andone or more posts 72 are provided to a right side of second centerlineCLB. In some embodiments, a post 52 is provided on second centerlineCLB. In some embodiments, posts 72 are provided on first segment 60 anequal distance on either side of second centerline CLB. In someembodiments, a post 72 is provided on second centerline CLB. In someembodiments, a first post 52 is provided on first segment 40 on a firstside of second centerline CLB, a second post 52 is provided on firstsegment 40 on a second side of second centerline CLB, a first post 52 isprovided on first segment 40 on a first side of second centerline CLB, asecond post 52 is provided on first segment 40 on a second side ofsecond centerline CLB, above a first centerline CLA of tool 30 and oneor more posts 72 are provided on second segment 60 below the firstcenterline CLA. In some embodiments, one or more posts 52 on firstsegment 40 are positioned an equal distance from first centerline CLA asone or more posts 72 on second segment 60. In some embodiments, a firstpost 52 is provided on first segment 40 on a first side of secondcenterline CLB, a second post 52 is provided on first segment 40 on asecond side of second centerline CLB, a first post 72 is provided onsecond segment 60 on the first side of second centerline CLB, and asecond post 72 is provided on second segment 60 on the second side ofsecond centerline CLB. In some embodiments, a first post 52 is providedon first segment 40 on a first side of second centerline CLB, a secondpost 52 is provided on first segment 40 on a second side of secondcenterline CLB, and a post 72 is provided on second segment 60 on secondcenterline CLB.

In some embodiments, the stand configuration is formed by inserting aportion of received end 56, such as projections 58, into a firstreceiving slot 34 positioned on first side 62 of second segment 60 and aportion of received end 76, such as projections 78, into a firstreceiving slot 34 positioned on first side 72 of second segment 60 (seeFIGS. 4-5). In some embodiments, the stand configuration is formed byinserting a portion of received end 56, such as projections 58, into asecond receiving slot 36 positioned on first side 62 of second segment60 proximate receiving end 74 and a portion of received end 76, such asprojections 78, into a second receiving slot 34 positioned on first side72 of second segment 60 proximate receiving end 54 (see FIGS. 4-5).

Referring next to FIGS. 8 and 9, an exemplary screen protector assembly80 for use with tool 30 is illustrated. Screen protector assembly 80includes a screen protector 82 to be affixed to the display screen 14 ofelectronic device 10 using tool 30. In some exemplary embodiments,screen protector 82 is formed from a glass material, such as soda limeglass or fortified glass. In some exemplary embodiments, screenprotector 82 is formed from a polymeric material, such as a plastic filmor composite.

Screen protector 82 includes a front surface 84 and an opposing rearsurface 86. In some embodiments, at least a portion of rear surface 86is coated with a suitable adhesive for affixing screen protector 82 toelectronic device 10. In some embodiments, only a perimeter portion ofthe rear surface 86 is coated with the adhesive. In some embodiments,the entire rear surface 86 is coated with the adhesive.

In some exemplary embodiments, screen protector 82 is a substantiallyflat geometry configured to cover only a front surface 12 of electronicdevice. In some exemplary embodiments, screen protector 82 includes oneor more curved surfaces configured to at least partially cover a portionof one or more side surfaces, such as left side 16 or right side 18 ofelectronic device 10, and/or one or more curved edges of electronicdevice 10.

Screen protector 82 includes a front surface 84 and an opposing rearsurface 86. Rear surface 86 of screen protector 82 is illustrativelyprotected by a first removable film 88. Removable film 88 illustrativelyincludes a gripping tab 90 at one end to assist in the removal ofremovable film 88 from the screen protector 82. Gripping tab 90 may beformed as part of removable film 88 or may be a separate component whichis attached to removable film 88.

Front surface 84 of screen protector 82 is illustratively protected by asecond removable film 92. Second removable film 92 illustrativelyincludes a first alignment extension 94 at a first end of removable film92 configured to align towards a top side 20 of electronic device 10 anda second alignment 96 at a second end of removable film 92 configured toalign towards a bottom side 22 of electronic device 10. First alignmentextension 94 includes one or more alignment apertures 98A configured tobe received on posts 52 on first segment 40 of tool 30. Second alignmentextension 96 includes one or more alignment apertures 98B configured tobe received on posts 72 on second segment 60 of tool 30. In someembodiments, alignment apertures 98A are the same size and in therespective same position on first alignment extension 94 as alignmentapertures 98B on second alignment extension 96. In some embodiments,alignment apertures 98A differ in size and/or respective position onfirst alignment extension 94 compared to alignment apertures 98B onsecond alignment extension 96.

Next, the screen protector assembly 80 (see FIGS. 7-8) and alignmenttool 30 (see FIGS. 1-6) will be further discussed with reference to anexemplary method 150, shown in FIG. 9, of installing the screenprotector 82 onto an electronic device 10 received within the interior32 of alignment tool 30.

In step 152, the alignment tool 30 is assembled by compressing theprojections 58 and placing the received end 56 of first segment 40 intothe corresponding receiving end 74 of second segment 60 and compressingthe projections 78 and placing the received end 76 of second segment 60into the corresponding receiving end 54 of first segment 40. Once theprojections 58, 78 are received within the corresponding receiving ends74, 54, they are able to resiliently flex back outward. The third side46 of the first segment 40 has a smaller perimeter than the first side62 of the second segment 60 and the third side 66 of the second segment60 has a smaller perimeter than the first side 42 of the first segment40. This allows the third leg 46 of the first segment 40 to slide withinthe first leg 62 of the second segment 60 and the third leg 66 of thesecond segment 60 to slide within the first leg 42 of the first segmentto achieve different lengths for the interior 32 of tool 30.

In step 154, the electronic device 10 is placed within the interior 32of tool 30 with the display screen 14 facing upward. The electronicdevice 10 is aligned within the interior 32 of the tool by pressing thesecond side 44 of the first segment 40 towards the second side 64 of thesecond segment 60. The first top corner 24A of the electronic device 10is contacted by the first corner alignment feature 48 of the firstsegment 40 and the second top corner 24B of the electronic device 10 iscontacted by the second corner alignment feature 50 of the first segment40. The first bottom corner 26A of the electronic device 10 is contactedby the first corner alignment feature 68 of the second segment 60 andthe second bottom corner 26B of the electronic device 10 is contacted bythe second corner alignment feature 70 of the second segment 60. Theangled surfaces of corner alignment features 48, 50, 68, 70 align andcenter the electronic device 10 as the corresponding second sides 44, 64of the first segment 40 and second segment 60 are brought, slid, ormoved towards each other.

In step 156, the rear surface 86 of screen protector 82 is exposed bypulling the first protective film 88 off using the grasping tab 90. Thealignment apertures 98A on first alignment extension 94 at a first endof screen protector assembly 80 are placed over the posts 52 of thefirst segment 40 of tool 30. The alignment apertures 98B on secondalignment extension 96 at a second opposing end of screen protectorassembly 80 are placed over the posts 72 of the second segment 60 oftool 30. In some embodiments, alignment apertures 98A are substantiallyidentical in size, shape, and/or relative position on first alignmentextension 94 to the size shape, and/or relative position or alignmentapertures 98B on second alignment extension 96, which may beadvantageous where the screen protector assembly 80 does not have apreferred orientation relative to the electronic device 10. In otherembodiments, alignment apertures 98A are not substantially identical inone or more of the size, shape, and/or relative position on firstalignment extension 94 to the size shape, and/or relative position oralignment apertures 98B on second alignment extension 96, which may beadvantageous where the screen protector assembly 80 does have a requiredorientation relative to the electronic device 10.

In some embodiments, a size of the alignment apertures 98A, 98B isselected to prevent the screen protector assembly 80 from traveling downthe taper of the posts 52 beyond a predetermined point to provide aheight alignment of the screen protector 82 and display screen 14 of theelectronic device 10 during assembly (see FIGS. 3-4). In someembodiments, a distance between the alignment apertures 98A, 98B and thescreen protector 82 is selected to provide a length alignment of thescreen protector 82 and display screen 14 of the electronic device 10during assembly (see FIG. 2).

In step 158, the screen protector is gently pressed against the displayscreen 14 of the electronic device 10, affixing the adhesive of the rearside 86 of the screen protector to the electronic device 10. In someembodiments, a gentle wave or rolling motion is used to affix the screenprotector 82 to the electronic device starting from one end and movingtoward the other end. In some embodiments, a squeegee or otherinstallation tool may be used to help press the screen protector 82against the electronic device 10. In some embodiments, it may benecessary to remove any trapped air bubbles by gently pressing againstthe affixed screen protector 82.

In step 160, the second protective film 92 is removed from screenprotector 82 by grasping one of the alignment extensions 94, 96, andpulling the film 92 off of the top surface 84 of the screen protector.The adhesive holding screen protector 82 to electronic device 10 isstronger than the adhesive holding film 92 to screen protector 82.

In step 162, the electronic device 10 and affixed screen protector 82are removed from the tool 30.

Referring next to FIGS. 10-12, another exemplary tool 30A for aligningand installing a screen protector 82 (see FIGS. 7-8) onto an electronicdevice 10 (see FIGS. 2-4) is illustrated. In some embodiments, tool 30Aincludes components or features similar to those described above withrespect to tool 30, and similar part numbers are used to indicatesimilar components in FIGS. 11 and 12.

Tool 30A illustratively includes a first segment 40A having a first side42, a second side 44, and a third side 46 and a second segment 60Ahaving a first side 62, a second side 64, and a third side 66. Firstsegment 40A is slideably moveable relative to second segment 60A todefine an interior 32 configured to accommodate a range of sizes ofelectronic device 10. In some exemplary embodiments, at least a portionof first segment 40A is substantially identical to a respective portionof second segment 60A. In some embodiments, the entire first segment 40Ais substantially identical to the second segment 60A. In otherembodiments, at least a portion first segment 40A is not substantiallyidentical to a respective portion of second segment 60A.

First side 42 of first segment 40A and first side 62 of second segment60A each illustratively terminate in a respective receiving end 54, 74each including a slot 36. The slot 36 of receiving end 54 is configuredto receive a portion of third side 66 of second segment 60A and the slot36 for receiving end 74 is configured to receive a portion of third side46 of first segment 40A.

Third side 46 of first segment 40A and third side 62 of second segment60A each illustratively terminate in a respective received end 56, 76.Received end 56 includes a pair of projections 58 and received end 76includes a pair of projections 78. Projections 58, 78 may be formed of aflexible or resilient material and are configured to be pressed togetherto allow the respective received end 56 slide into the correspondingreceiving end 54, 74 past one or more stops 37. First side 42 of firstsegment 40A and first side 62 of second segment 60A each include awindow 39 through which the respective received end 56, 76 is visible. Auser can press together the projections 58, 78 of respective receivedend 56, 76 through the window 39 to pass beyond stops 37 and remove thereceived end 56, 76 from corresponding receiving end 54, 74.

Referring next to FIGS. 13-15, still another exemplary tool 30B foraligning and installing a screen protector 82 (see FIGS. 7-8) onto anelectronic device 10 (see FIGS. 2-4) is illustrated. In someembodiments, tool 30B includes components or features similar to thosedescribed above with respect to tool 30 and/or tool 30A, and similarpart numbers are used to indicate similar components in FIGS. 13-15.

Tool 30B illustratively includes a first segment 40B having a first side42, a second side 44, and a third side 46 and a second segment 60Bhaving a first side 62, a second side 64, and a third side 66. Firstsegment 40B is slideably moveable relative to second segment 60B todefine an interior 32 configured to accommodate a range of sizes ofelectronic device 10. In some exemplary embodiments, at least a portionof first segment 40B is substantially identical to a respective portionof second segment 60B. In some embodiments, the entire first segment 40Bis substantially identical to the second segment 60B. In otherembodiments, at least a portion first segment 40B is not substantiallyidentical to a respective portion of second segment 60B.

First side 42 of first segment 40B and first side 62 of second segment60B each illustratively terminate in a respective receiving end 54, 74each including a slot 36. Slot 36 illustratively is open to the bottomof first segment 40B and second segment 60B. The slot 36 of receivingend 54 is configured to receive a portion of third side 66 of secondsegment 60B and the slot 36 for receiving end 74 is configured toreceive a portion of third side 46 of first segment 40B. Each receivingend 54, 74, illustratively includes a plurality of teeth 75 positionedalong an interior wall of slot 36.

Third side 46 of first segment 40B and third side 62 of second segment60B each illustratively terminate in a respective received end 56, 76.Received end 56 and received end 76 each include ratcheting teeth 77.Ratcheting teeth 77 are illustratively formed of a resilient materialallowing ratcheting teeth to flex in a direction towards the respectivethird side 46, 66, allowing first segment 40B and second segment 60B tomove relative each other to decrease the size of interior 32. Ratchetingteeth 77 terminate in tooth end 79. Each tooth end 79 is configured toengage a corresponding tooth of plurality of teeth 75 positioned alongthe interior wall of slot 36 in either first side 42 of first segment40B or first side 62 of second segment 60B. The engagement of tooth end79 with the tooth of plurality of teeth 75 prevents first segment 40Bfrom moving relative to second segment 60B in a direction to increasethe size of interior 32.

Each slot 36 further includes a neck 71 and wider portion 73. As firstsegment 40B is moved relative to second segment 60B to decrease the sizeof interior 32, the ratcheting teeth 77 are flexed towards theirrespective third side 46, 66, disengaging from the corresponding teeth75 positioned along the interior wall of slot 36 in either first side 42of first segment 40B or first side 62 of second segment 60B. Furthermovement of first segment 40B with respect to second segment 60 resultsin the ratcheting teeth 77 flexing back away from their respective thirdside 46, 66 into wider portion 73, allowing the respective third sides46, 66 to be removed through the open bottom of the respective slots 36in either first segment 40B or second segment 60B.

Ratcheting teeth 77 and the corresponding teeth 75 are configured toallow the first segment 40B to slide with respect to the second segment60B in a first direction, such as to diminish or reduce a dimension ofinterior 32, but to resist the first segment 40B sliding with respect tothe second segment 60B in a second direction opposite the firstdirection, such as to enlarge a dimension of interior 32.

Referring next to FIG. 16, another exemplary screen protector assembly80A is illustrated. In some embodiments, screen protector assembly 80Aincludes components or features similar to those described above withrespect to screen protector assembly 80 illustrated in FIGS. 7 and 8,and similar part numbers are used to indicate similar components in FIG.16.

Screen protector assembly 80A includes a glass or polymeric screenprotector 82 to be affixed to the display screen 14 of electronic device10. Screen protector 82 includes a front surface 84 and an opposing rearsurface 86, at least a portion of rear surface 86 being coated with asuitable adhesive for affixing screen protector 82 to electronic device10. The adhesive of rear surface 86 is illustratively protected by afirst removable film 88. Front surface 84 of screen protector 82 isillustratively protected by a second removable film 92. In someembodiments, first removable film 88 and/or second removable film 92includes a gripping tab 90 at one end to assist in the removal of therespective removable film 88, 92.

Referring next to FIGS. 17-19, an exemplary tool 30C for aligning andinstalling a screen protector 82 (see FIG. 16) onto an electronic device10 is illustrated. In some embodiments, tool 30C includes components orfeatures similar to those described above with respect to tool 30, tool30A, and/or tool 30B, and similar part numbers are used to indicatesimilar components in FIGS. 17-19.

Tool 30C illustratively includes a first segment 40C having a first side42, a second side 44, and a third side 46 and a second segment 60Chaving a first side 62, a second side 64, and a third side 66. Firstsegment 40C is slideably moveable relative to second segment 60C todefine an interior 32 configured to accommodate a range of sizes ofelectronic device 10. In some exemplary embodiments, at least a portionof first segment 40C is substantially identical to a respective portionof second segment 60C. In some embodiments, the entire first segment 40Cis substantially identical to the second segment 60C. In otherembodiments, at least a portion first segment 40C is not substantiallyidentical to a respective portion of second segment 60C.

In some embodiments, electronic device 10 includes one or more features28 extending from a back surface of electronic device 10. Exemplaryfeatures 28 that may extend from the back surface of electronic device10 include, but are not limited to, one or more cameras, a fingerprintscanner or other biometric scanner, and a user input device. Feature 28extends outwardly from the back surface of electronic device 10, makingit difficult for electronic device 10 to lay flat within interior 32 oftool 30C for properly alignment of screen protector assembly 80A duringinstallation of screen protector 82.

To assist in laying electronic device 10 flat within interior 32 of tool30C, in some embodiments, first segment 40C and/or second segment 60Cincludes one or more extensions 102 extending from one or more ofrespective first sides 42, 62, second sides 44, 64, and/or third sides46, 66. Extensions 102 support the back surface of electronic device 10in an area other than the area of feature 28 to allow electronic device10 to lay flat within interior 32 of tool 30C. As illustrated in FIG.18A, in some embodiments, extensions 102 form one or more openings 104A,104B, 104C for receiving feature 28 extending from back surface ofelectronic device 10. In other embodiments, extensions 102 do not formany openings 104.

As illustrated in FIG. 18, in some embodiments, first segment 40C andsecond segment 60C include identically shaped extensions 102 formingidentically shaped openings 104. In other embodiments, first segment 40Cand second segment 60C include one or more differently shaped extensions102 forming differently shaped openings 104. In still other embodiments,first segment 40C and/or second segment 60C may not include anyextensions 102 or any extensions 102 may not form any openings 104.

In some embodiments, extensions 102 can be broken off of or otherwiseremoved from first segment 40C and/or second segment 60C prior toplacing electronic device 10 into the interior 32 of tool 30C.

As illustrated in FIGS. 17 and 19, tool 30C further includes core 110.Core 110 is illustratively formed from a semi-rigid material to preventcore 110 from stretching once it is received on posts 52 of firstsegment 40C and posts 72 of second segment 60C. Exemplary semi-rigidmaterials include foam, thermoplastic, cardboard, and paperboard. Insome exemplary embodiments, core 110 is formed from a die-cut orlaser-cut piece of material.

Core 110 includes a perimeter portion 112 surrounding an aperture 114.Aperture 114 is sized to receive screen protector 82. A first end ofperimeter portion 112 includes one or more alignment apertures 116configured to be received on corresponding posts 52 of first segment40C. A second end of perimeter portion 112 includes one or morealignment apertures 118 configured to be received on corresponding posts72 of second segment 60C.

In some embodiments, core 110 secures tool 30C in a predeterminedposition about electronic device 10. Screen protector 82 can be alignedwith display 14 by affixing it through aperture 114 of core 110 oncecore 110 has been positioned over posts 52, 72 of tool 30C, securingtool 30C against electronic device 10 in a predetermined position. Insome embodiments, alignment apertures 116, 118 are positioned such thattool 30C fits snugly to an electronic device 10 positioned in interior32, thereby centering electronic device 10 as described above.

In some embodiments, a single tool 30C can be used with multiple sizesof electronic devices 10. Each electronic device 10 may have anassociated core 110 having alignment apertures 116, 118 positioned to asnugly fit tool 30C to electronic device and align aperture 114 withdisplay 14 when the electronic device 10 is positioned in the interior32 of tool 30C.

In some embodiments, a screen protector 82 is affixed to a display 14 ona front surface 12 of electronic device 10 using tool 30C. Electronicdevice 10 is positioned within interior 32 of tool 30C such that feature28 is received within an opening 104. The receiving ends 54, 74 receivecorresponding received ends 56, 76 and first segment 40C is movedtowards second segment 60C to align electronic device 10 within tool30C. Alignment apertures 116, 118 of core 110 are positioned oncorresponding posts 52, 72 of tool 30C, aligning aperture 114 of core110 with display 14 of electronic device 10.

A screen protector assembly 80A (FIG. 16) is provided. A first removablefilm 88 is removed from the back surface 86 of screen protector 82 usingtab 90 to expose the adhesive on back surface 86 of screen protector 82.Screen protector 82 is then aligned with display 14 of electronic device10 through aperture 114 in core 110. Pressure is applied to top surface84 of aligned screen protector 82 to affix screen protector 82 todisplay 14. In other examples, screen protector 82 is attached, directlyor indirectly, over aperture 114 and then applied to the electronicdevice. In either case, the electronic device 10 with affixed screenprotector 82 is then removed from tool 30C and the second removable film92 is removed from top surface 84 of screen protector 82.

Referring next to FIG. 20, an exemplary tool 30D for aligning andinstalling a screen protector 82 (see FIG. 16) onto an electronic device10 is illustrated. In some embodiments, tool 30D includes components orfeatures similar to those described above with respect to tool 30, tool30A, tool 30B, and/or tool 30C, and similar part numbers are used toindicate similar components in FIG. 20.

Tool 30D further includes core 110A. Core 110A is illustratively formeda semi-rigid material to prevent core 110A from stretching once it isreceived on posts 52 of first segment 40D and posts 72 of second segment60D. Exemplary semi-rigid materials include foam, thermoplastic,cardboard, and paperboard. In some exemplary embodiments, core 110A isformed from a die-cut or laser-cut piece of material. Second removablefilm 92 releasably affixes screen protector 82 to core 110A.

In some embodiments, a screen protector 82 is affixed to a display 14 ona front surface 12 of electronic device 10 using tool 30D. Electronicdevice 10 is positioned within interior 32 of tool 30D such that feature28 is received within an opening 104. The receiving ends 54, 74 receivecorresponding received ends 56, 76 and first segment 40D is movedtowards second segment 60D to align electronic device 10 within tool30D.

A first removable film 88 is removed from the back surface 86 of screenprotector 82 using a tab 90 (not shown in FIG. 20) to expose theadhesive on the back surface 86 of screen protector 82. The alignmentapertures 116, 118 of core 110A are positioned on corresponding posts52, 72 of tool 30D, aligning core 110A and screen protector 82 withdisplay 14 of electronic device 10.

Pressure is applied to top surface 84 of aligned screen protector 82 torelease screen protector 82 from second removable film 92 and core 110A,thereby affixing screen protector 82 to display 14. The electronicdevice 10 with affixed screen protector 82 is then removed from tool30D.

In some embodiments, an installation tool, such as tool 30, tool 30A,tool 30B, tool 30C, or tool 30D is provided as a kit with a screenprotector 82. In some embodiments, the screen protector 82 provided withthe kit is provided as part of a screen protector assembly, such asscreen protector assembly 80 or screen protector assembly 80A, or aspart of an assembly 120.

FIG. 21 illustrates a perspective view of another exemplary tool 30E forinstalling a screen protector on electronic device 10. Tool 30E may bean example of any of tools 30, 30A, 30B, 30C, and/or 30D. Tool 30E andeach of its components may include any of the features, elements,design, characteristics, and/or function of any of tools 30, 30A, 30B,30C, 30D, and/or their components. Tool 30E includes a first segment 40Eand a second segment 60E. First segment 40E is illustratively moveablerelative to second segment 60E to accommodate a range of sizes ofelectronic device 10 as discussed in prior examples. In some exemplaryembodiments, first segment 40E and second segment 60E are movably orslidably coupled relative to each other to receive electronic devices 10having different lengths and/or widths.

First segment 40E and second segment 60E define an interior 32 of tool30E for receiving electronic device 10. First corner alignment feature48 and second corner alignment feature 50 are configured to alignreceived electronic device 10 within the interior 32 of tool 30E toallow proper alignment during installation of screen protector 82. Insome embodiments, each corner alignment feature 48, 50 is a surface atan angle greater than 0° and less than 90° with respect to the sides oftool 30E. In some embodiments, each corner alignment feature 48, 50forms an angle with a side as little as 10°, 20°, 30°, 40°, 45°, asgreat as 50°, 60°, 70°, 80°, or within any range defined between any twoof the foregoing values, such as 10° to 80°, 30° to 60°, or 40° to 50°.

First segment 40E illustratively includes one or more posts 52Econfigured to receive a screen protector assembly 100 including screenprotector 82 (see FIG. 21). Each post 52E extends substantiallyperpendicularly from first segment 40E. In other embodiments, one ormore posts 52E may be angled away from interior 32. In some embodimentseach post 52E may have a tapered shape or other non-uniform shape. Insome embodiments, one or more of posts 52E may have a ridge, spine,recess, or sharp edge which tends to grab or hold onto an item placedover the post by forming a frictional fit with item and/or cutting veryslightly into the surface of softer items, such as cardboard.

Second segment 60E includes a first corner alignment feature 68 and asecond corner alignment FIG. 70. Each corner alignment feature 68, 70 isconfigured to align received electronic device 10 within the interior 32of tool 30E to allow proper alignment during installation of the screenprotector 82. In some embodiments, each corner alignment feature 68, 70is a surface at an angle greater than 0° and less than 90° with respectto second side 64, such as the 45° illustrated in FIG. 21. In someembodiments, each corner alignment feature 68, 70 forms an angle aslittle as 10°, 20°, 30°, 40°, 45°, as great as 50°, 60°, 70°, 80°, orwithin any range defined between any two of the foregoing values, suchas 10° to 80°, 30° to 60°, or 40° to 50°.

Second segment 60E includes one or more posts. Specifically, the exampleof FIG. 21 includes a post 72E and a post 72G having a cross sectionalshape that is different than post 72E and/or posts 52E. Like posts 52E,posts 72E and 72G may also have different orientations from each other.The shapes, positions, and rotational orientation of posts 52E, 72E, and72G provide a keying function which reduces the number of ways a screenprotector assembly can be installed on tool 30E (discussed in greaterdetail with respect to FIG. 22).

In some embodiments, the angled surfaces of the respective alignmentfeatures 48, 50, 68, 70 allow tool 30E to receive electronic deviceshaving a variety of lengths and widths. When the electronic device 10 isreceived within interior 32 of assembled tool 30E and the first segment40E is moved towards the second segment 60E, each of the corners ofelectronic device 10 contacts the angled surface of a respectivealignment feature 48, 50, 68, 70 of the tool 30E. Opposing forcesapplied to first segment 40E and 60E toward each other will tend tocenter electronic device 10 within tool 30E.

FIG. 22 illustrates an exemplary exploded view of tool 30E with a screenprotector assembly 100. Screen protector assembly 100 includes core110E. Core 110E is illustratively formed a semi-rigid material to keepassembly 100 substantially flat as well as prevent core 110E fromstretching once it is received on the posts of tool 30E. Exemplarysemi-rigid materials include foam, thermoplastic, cardboard, andpaperboard. In some exemplary embodiments, core 110E is formed from adie-cut or laser-cut piece of material. Core 110E includes an aperture111 with corresponds with some or all of the perimeter of screenprotector 82 for purposes of aligning screen protector 82 with respectto tool 30E and electronic device 10. Core 110E includes alignmentapertures 116E which correspond in size, shape, and position to posts52E. Core 110E also includes alignment apertures 118E and 118G whichcorrespond to posts 72E and 72G, respectively. Because post 72G andalignment aperture are different shapes than the other posts andalignment apertures, core 110E is ‘keyed’ in that it can only be engagedwith or positioned on the posts of tool 30E in one way, therebyproviding a preferred orientation and reducing the chance of errors.

Further, alignment apertures 116E are spaced apart from alignmentapertures 118 E and 118G a distance which corresponds to the distancesbetween posts 52E, 72E, and 72G when tool 30E is closed aroundelectronic device 10. In other words, another core which corresponds toanother electronic device that is a different size than electronicdevice 10 will have different alignment aperture spacings whichcorrespond to the spacing of the posts of tool 30E when it is closedaround this other electronic device. It should be understood that manyother shapes, sizes, positions, quantities, and orientations of postsand alignment features are possible. The spacing corresponds to thespacing and position of the posts on tool 30E when it is firmly closedon an electronic device having a particular size. As discussedpreviously, one or more of the posts may have a ridge, spine, recess,rough edge, or sharp edge which tends to grab or hold onto core 110Ewhen it is placed over the posts by forming a frictional fit and/orcutting very slightly into core 110E.

Positioning film 92E is adhered to core 110E at or near its ends. Screenprotector 82 is releasably affixed to positioning film 92E in aperture111. In this way, core 110E, positioning film 92E and screen protectorcomprise a single assembly until screen protector 82 is installed onelectronic device 10. Electronic device 10 is positioned within interior32 of tool 30E and electronic device 10 is centered within tool 30E asdescribed in previous examples.

A first removable film 88 is removed from back surface 86 of screenprotector 82 using a tab 90 to expose the adhesive on the back surface86 of screen protector 82 (removable film, back surface 86, and tab 90not visible in FIG. 22). The alignment apertures 116E, 118E, and 118G ofcore 110E are positioned on corresponding posts 52E, 72E, and 72G oftool 30E, thereby aligning screen protector 82 with display 14 ofelectronic device 10.

Pressure is applied to the aligned screen protector 82 to adhere oraffix screen protector 82 to display 14. Beneficially, core 110E holdsthe posts of tool 30E during the application process such that tool 30Edoes not open or allow electronic device 10 to move. Further, screenprotector is aligned with a preferred installation location andorientation on display 14 such that the user does not have to try tomanually position or align the screen protector. Then, core 110E isremoved from the posts of tool 30E. The screen protector 82 remainsaffixed to electronic device 10 and positioning film 92E pulls away fromscreen protector 82. Electronic device 10 with attached screen protector82 is then removed from tool 30E. In some embodiments, screen protectorassembly 100 and tool 30E are provided together in the form of a kit.The kit may also include an instruction sheet, a cleaning cloth, acleaning wipe, a lint removal pad, and/or a cleaning solution.

FIG. 21 illustrates a perspective view of another exemplary tool 30F forinstalling a screen protector on electronic device 10. Tool 30F may bean example of any of tools 30, 30A, 30B, 30C, 30D, and/or 30E. Tool 30Fand each of its components may include any of the features, elements,design, characteristics, and/or function of any of tools 30, 30A, 30B,30C, 30D, 30E and/or their components. Tool 30F includes a first segment40F and a second segment 60F. First segment 40F is illustrativelymoveable or slidable relative to second segment 60F to accommodate arange of sizes of electronic device 10. In some exemplary embodiments,first segment 40F and second segment 60F are slidably coupled relativeto each other to receive electronic devices 10 having different lengthsand/or widths.

First segment 40F and second segment 60F define an interior 32 of tool30F for receiving electronic device 10. First corner alignment feature48 and second corner alignment feature 50 are configured to alignreceived electronic device 10 within the interior 32 of tool 30F toallow proper alignment during installation of screen protector 82. Insome embodiments, each corner alignment feature 48, 50 is a surface atan angle greater than 0° and less than 90° with respect to the sides oftool 30F. In some embodiments, each corner alignment feature 48, 50forms an angle with a side as little as 10°, 20°, 30°, 40°, 45°, asgreat as 50°, 60°, 70°, 80°, or within any range defined between any twoof the foregoing values, such as 10° to 80°, 30° to 60°, or 40° to 50°.

First segment 40F illustratively includes one or more posts 52Fconfigured to receive a screen protector assembly 200 including screenprotector 82 (see FIG. 27). Each post 52F extends substantiallyperpendicularly from first segment 40F. In other embodiments, one ormore posts 52F may be angled away from interior 32. In some embodimentseach post 52F may have a tapered shape. In some embodiments, one or moreof posts 52F may have a ridge, spine, recess, or sharp edge which tendsto grab or hold onto an item placed over the post by forming africtional fit with item and/or cutting very slightly into the surfaceof softer items.

Second segment 60F includes a first corner alignment feature 68 and asecond corner alignment FIG. 70. Each corner alignment feature 68, 70 isconfigured to align received electronic device 10 within the interior 32of tool 30F to allow proper alignment during installation of the screenprotector 82. In some embodiments, each corner alignment feature 68, 70is a surface at an angle greater than 0° and less than 90° with respectto second side 64. In some embodiments, each corner alignment feature68, 70 forms an angle as little as 10°, 20°, 30°, 40°, 45°, as great as50°, 60°, 70°, 80°, or within any range defined between any two of theforegoing values, such as 10° to 80°, 30° to 60°, or 40° to 50°.

Second segment 60F includes a groove, recess, or channel 171 thatextends along the bottom edge and/or bottom front edge of second segment60F. Second segment 60F also includes a slot 173 that is accessible fromthe bottom edge and/or the bottom back edge of second segment 60F. Theuse of channel 171 and slot 173 are discussed further in the discussionsof FIGS. 26 and 27.

FIG. 24 illustrates a side view of tool 30F. Both the top end and thebottom end of tool 30F include ramped regions which result in each ofthe top end and the bottom end extending up above the primary topsurface of tool 30F. In some examples, the top ramped region may betaller and/or may extend further from the primary planar surface thanthe bottom ramped region does (even when the height of post 52F is notconsidered in the height).

FIG. 25 illustrates a bottom view of tool 30F. As discussed above withrespect to FIG. 24, first segment 40 may have a slightly greater overallheight than second segment 60F (making it slightly visible in the bottomview of FIG. 25). FIG. 25 also illustrates a downward facing pluralityof teeth 175 which are not shown in FIG. 23. Teeth 175 extend downwardinto the channel 171 which extends around at least a portion of thebottom of second segment 60F. Other examples may have more or fewerteeth than illustrated in FIG. 25.

FIG. 26 illustrates a screen protector assembly 200 configured to beused with tool 30F. Screen protector assembly 200 includes screenprotector 82 removably adhered to the back surface of an applicationfilm 202. In the example of FIG. 26, screen protector 82 is a glassscreen protector which has curved edges. However, screen protectorassembly 200 may also include a flat glass screen protector and/or ascreen protector made from a flexible material. Application film 202includes a post aperture 205. Application film also includes a pluralityof alignment apertures 206 which correspond to one or more of teeth 175of tool 30F. Finally, application film 202 includes retention tabs 203which are discussed in further detail below in the description of FIG.27.

Application film 202 has a width which corresponds to a width of slot171 of tool 30F. The bottom end of application film 202 of screenprotector assembly 200 is inserted into slot 171 in the directionindicated by the dashed arrow in FIG. 27. Since retention tabs extend toa width greater than the width of slot 171 of tool 30F, application film202 is inserted by temporarily bending retention tabs 203 to allow theend of application film 202 to fit into slot 171. Once inserted,retention tabs 203 relax or return to their primarily planar state andscreen protector assembly 200 is then removably connected to tool 30F ina floating manner.

After inserting application film 202 into slot 171 and centeringelectronic device in tool 30F as described in the examples above,removable film 88 is removed from the surface of screen protector 82using a gripping tab 90 to expose an adhesive on the surface of screenprotector 82. Screen protection assembly 200 is then bent upwards aroundthe front of tool 30F, while still remain attached in slot 173, asillustrated in FIG. 28. The bottom portion of application film 202 fitsinto channel 171 and is aligned or centered by channel 171. Applicationfilm 202 has an overall length that has been chosen such that screenprotector assembly 200 must be pulled taut in order to place postaperture 205 of screen protector assembly 200 over post 52F of tool 30F.In other words, the length of screen protector assembly 200 and theposition of post aperture 205 corresponds to the location of post 52Fwhen tool 30F is closed on a particular electronic device 10. Therefore,the length of screen protector assembly 200 and/or the position of postaperture 205 corresponds with a particular electronic device 10. Theposition of screen protector 82 on screen protector assembly 200 alsocorresponds to the position of a particular electronic device 10 in tool30F.

Teeth 175 of tool 30F may also extend into or through alignmentapertures 206 of screen protector assembly 200 to further center, align,and/or stabilize the position of screen protector assembly 200 relativeto tool 30F and electronic device 10. Although contact between screenprotector 82 and electronic device 10 may or may not have already begunwhen screen protector assembly 200 is place over post 52F, the user maypress screen protector assembly 200 down further to fully adhere screenprotector 82 to display 14 of electronic device 10. The differingheights of first segment 40F and second segment 60F discussed above mayresult in contact between screen protector 82 and display 14 firstoccurring at the bottom end before that contact propagates toward thetop. This ‘wavefront’ approach to the application is often preferredbecause it reduces the number of air bubbles that may be trapped in theprocess.

After screen protector 82 has been firmly adhered to display 14,application film 202 may be removed from post 52F and peeled back. Theadhesive holding screen protector 82 to application film 200 is weakerthan the adhesive holding screen protector to display 14. Therefore,screen protector 82 remains attached to display 14 and application film202 pulls away from screen protector 82 leaving screen protectorinstalled and properly aligned on display 14 of electronic device 10.Electronic device 10 can then be removed from tool 30F and applicationfilm 202 can be removed from slot 171 of tool 30F. Beneficially, tool30F may be used with electronic devices of various sizes as long as thedimensions of screen protector assembly 200 and the position of screenprotector 82 on screen protector assembly 200 are chosen to product thecorrect fit to tool 30F and alignment to electronic device 10 whenelectronic device 10 is in tool 30F.

The elements, components, and steps described herein are meant toexemplify some types of possibilities. In no way should theaforementioned examples limit the scope of the invention, as they areonly exemplary embodiments. Moreover, the figures provided are meant toillustrate certain features of the embodiments. Unless otherwise noted,they are not provided to scale.

The phrases “in some embodiments,” “according to some embodiments,” “inthe embodiments shown,” “in other embodiments,” “in some examples,” “inother examples,” “in some cases,” “in some situations,” “in oneconfiguration,” “in another configuration,” and the like generally meanthat the particular technique, feature, structure, or characteristicfollowing the phrase is included in at least one embodiment of thepresent invention and/or may be included in more than one embodiment ofthe present invention. In addition, such phrases do not necessarilyrefer to the same embodiments or to different embodiments.

The foregoing disclosure has been presented for purposes of illustrationand description. Other modifications and variations of the disclosedtechniques may be possible in view of the above teachings. Theembodiments described in the foregoing disclosure were chosen to explainthe principles of the concept and its practical application to enableothers skilled in the art to best utilize the invention. It is intendedthat the claims be construed to include other alternative embodiments ofthe invention, except as limited by the prior art.

What is claimed is:
 1. A kit comprising: a screen protector comprising:a front surface and an opposing rear surface; a first removable filmadapted to at least partially cover the rear surface of the screenprotector; and a second removable film adapted to at least partiallycover the front surface of the screen protector; and a screen protectorinstallation tool comprising: a first segment having a first side, asecond side attached to the first side by a first corner alignmentfeature, and a third side attached to the second side by a second corneralignment feature; and a second segment slidably attached to the firstsegment to define an interior of the screen protector installation tool,the second segment including a first side, a second side attached to thefirst side by a first corner alignment feature, and a third sideattached to the second side by a second corner alignment feature;wherein at least a portion of the first segment is adapted to beslidably received within the second segment to engage the secondsegment, and wherein the first and second corner alignment features ofthe first segment and the first and second corner alignment features ofthe second segment are adapted to center the electronic device in theinterior of the screen protector installation tool when the firstsegment is moved relative to the second segment.
 2. The kit of claim 1further comprising one or more posts extending from at least one of thefirst segment and the second segment of the screen protectorinstallation tool, wherein the one or more posts are adapted to receivethe screen protector.
 3. The kit of claim 2 further comprising a coreincluding a perimeter segment defining an aperture, the core includingone or more alignment apertures adapted to align with the one or moreposts of the screen protector installation tool.
 4. The kit of claim 3wherein the first removable film of the screen protector extends pasttwo or more edges of the screen protector and affixes the screenprotector to the core, wherein the screen protector is positioned in theaperture of the core.
 5. The kit of claim 1 further comprising acleaning cloth.
 6. The kit of claim 1 wherein a ratcheting mechanismattaches the first segment to the second segment.
 7. A tool forfacilitating the affixing of a screen protector to a display of anelectronic device which has a left side, a right side, a top side, and abottom side, the tool comprising: a first segment having a first side, asecond side attached to the first side by a first corner alignmentfeature, and a third side attached to the second side by a second corneralignment feature; and a second segment slidably attached to the firstsegment to define an interior of the tool, the second segment includinga first side, a second side attached to the first side by a first corneralignment feature, and a third side attached to the second side by asecond corner alignment feature, wherein at least one of the firstsegment and the second segment includes one or more posts for receivinga screen protector assembly comprising the screen protector; wherein thefirst and second corner alignment features of the first segment and thefirst and second corner alignment features of the second segment areconfigured to center the electronic device in the interior of the toolwhen the first segment is slid relative to the second segment.
 8. Thetool of claim 7 wherein the one or more posts are positioned on thesecond side of the at least one of the first segment and the secondsegment.
 9. The tool of claim 7 wherein the one or more posts is two ormore posts and one of the two or more posts is keyed relative to theother of the two or more posts.
 10. The tool of claim 7 wherein thescreen protector assembly includes: the screen protector, the screenprotector having a front surface and an opposing rear surface; a firstremovable film configured to at least partially cover the rear surfaceof the screen protector; and a second removable film configured to atleast partially cover the front surface of the screen protector.
 11. Thetool of claim 10 wherein the second removable film includes an alignmentextension including one or more alignment apertures configured to alignwith the one or more posts.
 12. The tool of claim 7 wherein the firstcorner alignment feature and the second corner alignment feature of thefirst segment each comprise a surface forming a corresponding anglebetween 30° and 60° with the second side of the first segment.
 13. Thetool of claim 7 wherein the first corner alignment feature and thesecond corner alignment feature of the second segment each comprise asurface forming a corresponding angle between 30° and 60° with thesecond side of the second segment.
 14. A tool for facilitating theaffixing of a screen protector to a display of an electronic devicewhich has a left side, a right side, a top side, and a bottom side,wherein the screen protector is attached to a screen protector assembly,the tool comprising: a first portion having a first side, a second sideattached to the first side by a first corner alignment feature, and athird side attached to the second side by a second corner alignmentfeature; and a second portion slidably attachable to the first portionto define an interior of the tool, the second portion including a firstside, a second side attached to the first side by a first corneralignment feature, and a third side attached to the second side by asecond corner alignment feature, wherein each of the first portion andthe second portion includes one or more posts for receiving the screenprotector assembly including the screen protector; wherein the first andsecond corner alignment features of the first segment and the first andsecond corner alignment features of the second segment are adapted tocenter the electronic device in the interior of the tool when the firstportion is moved toward the second segment.
 15. The tool of claim 14wherein at least one of the one or more posts of the first segment andthe second segment is keyed relative to the other posts.
 16. The tool ofclaim 14 wherein at least one of the first side, the second side, andthe third side of the first portion has a different length or adifferent shape than the respective first side, the second side, and thethird side of the second portion.
 17. The tool of claim 14 wherein theinterior of the tool is configured to receive a variety of sizes ofelectronic devices.
 18. The tool of claim 14 configured as a kitincluding the screen protector assembly.
 19. The tool of claim 14wherein the first side of the first portion and the third side of thesecond portion are configured to be proximate the left side of theelectronic device, the second side of the first portion is configured tobe proximate the top side of the electronic device, the third side ofthe first portion and the first side of the second portion areconfigured to be proximate the right side of the electronic device, andthe second side of the second portion is configured to be proximate thebottom side of the electronic device when the electronic device ispositioned in the interior of the tool.
 20. The tool of claim 14 whereinthe first portion includes a ratcheting tooth configured to engage acorresponding tooth of a plurality of teeth positioned on a surface ofthe second portion, wherein the ratcheting tooth and the plurality ofteeth are configured to allow the first portion to slide with respect tothe second portion in a first direction but to resist the first portionsliding with respect to the second portion in a second directionopposite the first direction.